AI Article Synopsis
- Locomotion involves alternating muscle activity in limbs controlled by the spinal interneuronal circuit, influenced by sensory inputs and brain commands for navigating environments.
- The role of DSCAM, a cell adhesion molecule related to Down syndrome, has recently been studied for its involvement in motor control and locomotion in rodents.
- DSCAM contributes to key processes like axonal guidance and synaptogenesis, which are crucial for establishing and maintaining motor circuits impacting coordination for activities such as breathing and moving.
Article Abstract
Locomotion results in an alternance of flexor and extensor muscles between left and right limbs generated by motoneurons that are controlled by the spinal interneuronal circuit. This spinal locomotor circuit is modulated by sensory afferents, which relay proprioceptive and cutaneous inputs that inform the spatial position of limbs in space and potential contacts with our environment respectively, but also by supraspinal descending commands of the brain that allow us to navigate in complex environments, avoid obstacles, chase prey, or flee predators. Although signaling pathways are important in the establishment and maintenance of motor circuits, the role of DSCAM, a cell adherence molecule associated with Down syndrome, has only recently been investigated in the context of motor control and locomotion in the rodent. DSCAM is known to be involved in lamination and delamination, synaptic targeting, axonal guidance, dendritic and cell tiling, axonal fasciculation and branching, programmed cell death, and synaptogenesis, all of which can impact the establishment of motor circuits during development, but also their maintenance through adulthood. We discuss herein how DSCAM is important for proper motor coordination, especially for breathing and locomotion.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8395195 | PMC |
| http://dx.doi.org/10.3390/ijms22168511 | DOI Listing |
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